CN110323259A - Dot structure, mask plate and display panel - Google Patents

Abstract

This application involves a kind of dot structure, the repetitive unit including multiple repeated arrangements, each repetitive unit includes the first sub-pixel, the second sub-pixel and third sub-pixel of different colours；The fictitious line of homochromy and adjacent two sub-pixels is spaced each other into transparent area in adjacent repetitive unit.In this way, the light transmittance of dot structure can be improved, therefore the amount for the fingerprint recognition light that sensor devices (for example, fingerprint recognition device) receive can be increased, to improve sensor devices accuracy of identification, improve imaging efficiency.On the other hand, the interval of sub-pixel can be reduced as much as possible, so that more sub-pixels can be set in same area, and more pixel unit combining forms are obtained, to effectively improve display effect.A kind of mask plate and display panel are also provided.

Description

Dot structure, mask plate and display panel

Technical field

The present invention relates to field of display technology, more particularly to a kind of dot structure, mask plate and display panel.

Background technique

With the continuous development of display technology, requirement of the people for the resolution ratio of display panel is also higher and higher.Due to Have many advantages, such as to show that quality is high, the application range of high-resolution display panel is also increasingly wider.In general, can be by reducing pixel Size and reduce the spacing between pixel to improve the resolution ratio of display device.However, the spacing between the size and pixel of pixel Reduction it is also higher and higher to the required precision of manufacture craft, to will lead to the difficulty and production of the manufacture craft of display panel The increase of cost.

At the same time, for the display panel with fingerprint identification function, in order to preferably realize screen design comprehensively, It avoids fingerprint identification region from occupying the space of non-display area, the lower fingerprint technique prize viewing area of screen can be used at present and be multiplexed with fingerprint knowledge Other region.It is not high to the accuracy of fingerprint valley ridge judgement when fingerprint recognition but in existing design, and then to fingerprint recognition Precision impacts.

Summary of the invention

Based on this, it is necessary to provide a kind of dot structure, mask plate and display panel, can have high-resolution and mention High fingerprint recognition precision.

On one side according to the application, a kind of dot structure is provided, the repetitive unit including multiple repeated arrangements, Mei Yichong Multiple unit includes the first sub-pixel, the second sub-pixel and third sub-pixel of different colours；

The fictitious line of homochromy and adjacent two sub-pixels is spaced each other into transparent area in adjacent repetitive unit.

Above-mentioned dot structure, the fictitious line of homochromy and adjacent two sub-pixels is spaced each other into adjacent repetitive unit The light transmittance of dot structure can be improved in transparent area, therefore can increase sensor devices (for example, fingerprint recognition device) and receive The amount of fingerprint recognition light improve imaging efficiency to improve sensor devices accuracy of identification.

In one embodiment, first sub-pixel, the second sub-pixel and third sub-pixel are polygonized structure, and institute It is different in third sub-pixel at least two number of edges to state the first sub-pixel, the second sub-pixel.

In one embodiment, different colours and adjacent two sub-pixels have a common virtual in each repetitive unit Side, different colours and adjacent two sub-pixels have a common fictitious line in adjacent repetitive unit.

In one embodiment, the respective fictitious line of pixel back gauge of each sub-pixel is equidistant.

In one embodiment, each repetitive unit includes first sub-pixel, second sub-pixel and two thirds Sub-pixel；

In the repetitive unit, first pixel arrangement is in a row or column, and second pixel arrangement is in phase Adjacent another row or column, two third pixel arrangements first sub-pixel or second sub-pixel it is adjacent one Column or row.

In one embodiment, in each repetitive unit, the line of centres of the first sub-pixel and second sub-pixel passes through The midpoint on mutual common virtual side, be expert at or column direction on, two third sub-pixels positioned at same column or row are with adjacent The sub-pixel of different colours is symmetrical arranged on the basis of the center line that row or column direction extends.

In one embodiment, be expert at or column direction on, the center of adjacent same sub-pixels is away from phase in adjacent repeat unit Deng.

In one embodiment, first sub-pixel is eight-sided formation, second sub-pixel is quadrilateral structure, institute Stating third sub-pixel is hexagonal structure.

According to further aspect of the application, a kind of mask plate is provided, for making such as above-mentioned picture as described in the examples Plain structure, the mask plate include multiple mask opens.

In one embodiment, the shape of the mask open is polygon.

In one embodiment, each repetitive unit includes first sub-pixel, second sub-pixel and two thirds Sub-pixel, first sub-pixel is eight-sided formation, second sub-pixel is quadrilateral structure, the third sub-pixel is Hexagonal structure；

The shape of the mask open is quadrangle or octagon.

In one embodiment, the multiple mask open repeated arrangement, each mask open are zhou duicheng tuxing, and It is in first angle α, 30 ° of 60 ° of < α < between the symmetry axis and row or column direction of each mask open.

In one embodiment, first angle α is 45 °.

According to the another aspect of the application, a kind of display panel, including substrate, sensor devices and such as above-mentioned implementation are provided Dot structure described in example, the dot structure and the sensor devices are set to the opposite sides of the substrate.

In one embodiment, the display panel includes:

Luminescent layer；And

Electrode layer is stacked with the luminescent layer, and the electrode layer includes illusory euphotic electrode, the illusory light transmission electricity Pole is set to the transparent area.

In one embodiment, the display panel includes driving layer group, and the driving layer group is described with being correspondingly arranged in The light transmission via hole of transparent area is filled with transparent material in the light transmission via hole.

Detailed description of the invention

Fig. 1 is the arrangement schematic diagram of the dot structure of an embodiment in the prior art；

Fig. 2 is the arrangement schematic diagram of the dot structure in one embodiment of the application；

Fig. 3 is the arrangement schematic diagram of the dot structure in another embodiment of the application；

Fig. 4 is the structural schematic diagram that the mask plate of the first sub-pixel and third sub-pixel is deposited in the dot structure of corresponding diagram 3；

Fig. 5 is the structural schematic diagram that the mask plate of the second sub-pixel is deposited in the dot structure of corresponding diagram 3；

Fig. 6 is the schematic cross-section of the display panel in one embodiment of the application.

Specific embodiment

To facilitate the understanding of the present invention, a more comprehensive description of the invention is given in the following sections with reference to the relevant attached drawings.In attached drawing Give preferred embodiment of the invention.But the invention can be realized in many different forms, however it is not limited to herein Described embodiment.On the contrary, purpose of providing these embodiments is keeps the understanding to the disclosure more saturating It is thorough comprehensive.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement are for illustrative purposes only.

Unless otherwise defined, all technical and scientific terms used herein and belong to technical field of the invention The normally understood meaning of technical staff is identical.Term as used herein in the specification of the present invention is intended merely to description tool The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term " and or " used herein includes one or more phases Any and all combinations of the listed item of pass.

As described in background, fingerprint identification technology is one of the technology being most widely used in biological identification technology. Currently, the fingerprint Identification sensor (sensor devices) of most smart machines is all embedded in Home key or fuselage behind, need Independent physical button, this hampers the development that high screen accounting shows equipment, therefore, shields lower fingerprint identification technology application and gives birth to. Wherein, the sensor devices that fingerprint image obtains may include optical sensor, optical sensor be usually carried out by pixel at Picture, the pixel is it can be appreciated that photosensitive unit or the pixel are referred to as pixel sometimes.Picture in optical sensor Incident ray can be converted into electric signal by element, and then generate a pixel in image.Optical sensor may include multiple Pixel, multiple pixel can receive the optical signal of object different location reflection respectively, to generate the image of object.Therefore, The light-inletting quantity and contrast of the received optical signal of pixel will affect the picture quality for generating object.

At the same time, Fig. 1 shows the arrangement schematic diagram of the dot structure in an embodiment in the prior art, such as Fig. 1 institute Show, which includes the sub-pixel 1,2 and sub-pixel 3 of three different colours, and the shape of three sub-pixels is rectangle, interior The outside of side rectangle is known as pixel side, the i.e. boundary of the pixel definition opening of pixel defining layer (PDL layers), the outside of outside rectangular The referred to as fictitious line of sub-pixel.Region between pixel side and fictitious line constitutes the interval region between pixel definition opening, The insulated column for being for example used to support mask plate can be set in interval region.Therefore, the size of interval region is bigger, then can compress The light-emitting area of sub-pixel thereby reduces PPI to reduce pixel aperture ratio.

Through inventor the study found that it is poor that display panel will appear whole translucency while meeting higher PPI Problem, further study show that, there is lighttight film layer in the luminescent layer of pixel, electrode layer and driving layer group, it is existing to set To realize high-resolution in meter, the fingerprint recognition of display device can not be led to there are enough glazed areas in display panel Function is not able to satisfy the demand of practical application.

To solve the problem above-mentioned, this application provides a kind of dot structure, mask plate and display panels, can be preferably Improve the above problem, while guaranteeing that screen body has resolution ratio, reduces the difficulty of mask plate manufacture craft and evaporation process, and mention The light transmittance of high display panel.

Before the application is described in detail, some contents in the application are explained first, in order to more The technical solution of the application is expressly understood.

Line direction/column direction: line direction refers to Fig. 2 and transverse direction shown in Fig. 3 or horizontal direction, column direction refer to Fig. 2 and Longitudinal direction shown in Fig. 3 or vertical direction.

Fig. 2 shows the arrangement schematic diagrams of the dot structure in one embodiment of the application；Fig. 3 shows another reality of the application Apply the arrangement schematic diagram of the dot structure in example；For ease of description, attached drawing illustrates only structure relevant to the embodiment of the present invention.

Refering to attached drawing, dot structure in one embodiment of the application, the repetitive unit 10 including multiple repeated arrangements, often One repetitive unit 10 includes the first sub-pixel 12, the second sub-pixel 14 and the third sub-pixel 16 of different colours.Specifically, first Sub-pixel 12, the second sub-pixel 14 and third sub-pixel 16 have different luminescent colors, as an implementation, the first son The color of pixel 12, the second sub-pixel 14 and third sub-pixel 16 can be one of red, blue and green, certainly, In some other embodiment, the first sub-pixel 12, the second sub-pixel 14 or third sub-pixel 16 can also for red, blue and Other colors except green, are not limited thereto.

The fictitious line of homochromy and adjacent two sub-pixels is spaced each other into transparent area 18 in adjacent repetitive unit 10. In this way, ambient can penetrate transparent area 18, to improve the light transmittance of dot structure, therefore sensor devices (example can be increased Such as, fingerprint recognition device) amount of fingerprint recognition light that receives improves imaging effect to improve sensor devices accuracy of identification Rate.

In some embodiments, the first sub-pixel 12, the second sub-pixel 14 and third sub-pixel 16 are polygonized structure, and First sub-pixel 12, the second sub-pixel 14 are different in third sub-pixel 16 at least two number of edges.For example, as a kind of implementation Mode, the first sub-pixel 12 is eight-sided formation, the second sub-pixel 14 is quadrilateral structure, the third sub-pixel 16 is six Side shape structure.In other embodiments, the first sub-pixel 12 is eight-sided formation, the second sub-pixel 14 is quadrangle knot Structure, third sub-pixel 16 are also eight-sided formation.Thus it is possible, on the one hand, passing through the first sub-pixel 12, the second sub-pixel 14, third At least two number of edges is different in sub-pixel 16, and pixel arrangement can be made more compact, effectively increase the display area of pixel, The aperture opening ratio of pixel is promoted, and obtains more pixel unit combining forms, to effectively improve display effect.On the other hand, In arrangement, distance two between the center of the first adjacent sub-pixel 12, the second sub-pixel 14, third sub-pixel 16 can be set Two is equal, so that all sub-pixels are the matrix arrangement of rule, so as to effectively promote sub-pixel for emitting light patterns of material Production precision, reduce the fold that Mask is generated when throwing the net.

It particularly points out, the inventors of the present application found that when sensor devices are arranged below display panel, display panel meeting There is the inaccurate problem of fingerprint imaging.Inventor is the study found that occur one of this problem the reason is that, due to transparent area 18 it is in irregular shape, extraneous light pass through these transparent areas 18 when will cause more complicated Diffraction intensity distribution, thus go out Existing diffraction fringe, and then will affect the normal work of sensor devices.For example, being located at the fingerprint recognition list under transparence display region When member work, by transparent area 18 more apparent diffraction can occur for extraneous light, so that the imaging of fingerprint identification unit The problem of image is distorted.When the first sub-pixel, the second sub-pixel and third sub-pixel are polygon, for example, the first son Pixel 12 is eight-sided formation, the second sub-pixel 14 is quadrilateral structure, the third sub-pixel 16 is that hexagonal structure can be with The rectangular or square etc. for making the shape rule of transparent area 18, to be effectively prevented from above situation.

In some embodiments, different colours and adjacent two sub-pixels have a common virtual in each repetitive unit 10 Side, different colours and adjacent two sub-pixels have a common fictitious line in adjacent repetitive unit 10.In this way, sub-pixel is arranged Cloth more closely, is conducive to the PPI for improving dot structure.It may be noted that for the convenience of description, by the first sub-pixel 12, second Sub-pixel 14, third sub-pixel 16 the inner side edge of polygonized structure be known as pixel side, by the first sub-pixel 12, the second sub-pixel 14, the outer side edges of the polygonized structure of third sub-pixel 16 are known as fictitious line, and the fictitious line refers to when Mask structure is blocked The outer boundary of pixel.As a kind of preferable embodiment, the distance of pixel side to the respective fictitious line of each sub-pixel is homogeneous Deng.Be readily appreciated that, the first sub-pixel 12, the second sub-pixel 14, third sub-pixel 16 pixel side to respective fictitious line distance Being equal is the matrix arrangement in order to enable final pixel arrangement structure is rendered as rule, i.e., between the sub-pixel of same type There is no Heterogeneous Permutations, i.e., with being in regular array between sub-pixels, dislocation-free is deviated, so as to effectively improve sub- picture The production precision and yield of plain luminescent material pattern, and reduce generation fold risk when Mask throws the net.

It is appreciated that the quantity of each 10 sub-pixel of repetitive unit is different, shape is different, then corresponding arrangement mode has Institute is different.For example, in some embodiments, referring to Fig.2, each repetitive unit 10 includes first sub-pixel 12, one second Sub-pixel 14 and a third sub-pixel 16, the first sub-pixel 12 and third sub-pixel 16 are arranged in a row or column, the second sub- picture Element 14 is arranged in adjacent another row or column.Multiple 10 repeated arrangements of repetitive unit, in two adjacent repetitive units of line direction The second sub-pixel of adjacent two 14 in 10, two third sub- pictures adjacent in two adjacent repetitive units 10 of column direction Element 16, and transparent area 18 above-mentioned is defined jointly positioned at the first diagonal sub-pixel 12, the shape of the transparent area 18 is in dumbbell Shape.

In other embodiments, refering to Fig. 3, each repetitive unit 10 includes 12, one second sons of first sub-pixel Pixel 14 and two third sub-pixels 16.As a preferred embodiment, the first sub-pixel 12 and second sub-pixel 14 color is one of red and blue, and the third sub-pixel 16 is green.It is appreciated that the sub-pixel of different colours Luminescent material there is different luminous efficiencies, green luminous efficiency highest, brightness is maximum, then each repetitive unit 10 can be with Two lesser green sub-pixels of light-emitting area are set, R, B sub-pixel are shared to reach G sub-pixel, to obtain more pictures Plain unit combining form and the virtual resolution for improving display panel, and then improve display effect.

It is emphasized that the luminous efficiency relative to R (red) sub-pixel and the luminescent material of G (green) sub-pixel, B The luminous efficiency of the luminescent material of (blue) sub-pixel is lower, when display panel after long-time use, opposite emitting red light Material and green luminescent material, blue emitting material decaying is very fast, causes display panel service life reduction, correspondingly increases light-emitting surface Product can achieve the purpose for improving the blue emitting material service life.Therefore, mode, blue sub- picture are preferably carried out as another kind The area of element is greater than the light-emitting area of the area of red sub-pixel and the sub-pixel of green.

Due to different colours in each repetitive unit 10 and adjacent two sub-pixels have a common fictitious line, then limit Abut the sub-pixel of different colours in repetitive unit 10 two-by-two.For example, in some embodiments, refering to Fig. 3, each repetitive unit In 10, the first sub-pixel 12 is arranged in a row or column, and the second sub-pixel 14 is arranged in adjacent another row or column, two thirds Sub-pixel 16 is arranged in a column or row adjacent with the first sub-pixel 12 or the second sub-pixel 14.In two adjacent weights of line direction The first sub-pixel of adjacent two 12 in multiple unit 10, two adjacent in two adjacent repetitive units 10 of column direction Transparent area 18 above-mentioned is partitioned between third sub-pixel 16, at this point, the shape of transparent area 18 is rectangle.In this way, on the one hand every One third sub-pixel 16 (green sub-pixels) share the first sub-pixel 12 (blue subpixels) in adjacent repeat unit 10 and Second sub-pixel 14 (red sub-pixel) can obtain more pixel unit combining forms and improve the virtual of display panel Resolution ratio.On the other hand, two adjacent third sub-pixels 16 can share an opening of mask plate, meet technique item Under part, smaller size of pixel unit can be made, to increase the PPI of display panel, and then improves point of display panel Resolution.In another aspect, repetitive unit 10 is arranged in matrix, third sub-pixel 16 can be made independent at a column or row namely same The center of the third sub-pixel 16 of column is located in a straight line, and the array cabling being connected with sub-pixel can also be convenient in a column The arrangement of array cabling advantageously reduces anode via hole to the distance of pixel defining layer, reduces the manufacture difficulty of display panel, Be conducive to the manufacture of sharpness screen.

It is worth noting that, the usually wavelength of green light and blue light is shorter, thus there is preferable straightness, propagates precision Height is effective reception light of sensor devices.In the embodiment shown in fig. 3, since the surrounding of transparent area 18 includes two greens Sub-pixel and two blue light sub-pixels, thus convenient for reflecting blue light and green light to the sensor devices, to improve sensor devices Accuracy of identification.

In some embodiments, in each repetitive unit 10, the line of centres of the first sub-pixel 12 and the second sub-pixel 14 is passed through The midpoint for crossing mutual common virtual side, be expert at or column direction on, positioned at same column or row two third sub-pixels 16 with The center line symmetrical setting that the sub-pixel of adjacent different colours extends along row or column direction.In this way, arrangement of subpixels is more equal It is even, so that final pixel arrangement structure is rendered as the matrix arrangement of rule, to improve display effect.It should be noted that Two third sub-pixels 16 in each repetitive unit 10 are arranged in same column or row, then the two has a common fictitious line, should Common virtual side is the boundary line of two third sub-pixels 16.

In some embodiments, be expert at or column direction on, the center of adjacent same sub-pixels is away from phase in adjacent repeat unit Deng.For example, specific in embodiment as shown in Figure 3, in the row direction, the center between two adjacent the first sub-pixels 12 Away from equal, then the center between two the second sub-pixels 14 in line direction, two adjacent repetitive units 10 is away from equal, phase It is located at the center of two third sub-pixels 16 with a line in two adjacent repetitive units 10 away from equal.In a column direction, adjacent Two repetitive units 10 in adjacent two third sub-pixels 16 center away from equal, then in column direction, two adjacent weights The center between two the first sub-pixels 12 in multiple unit 10 is away from two in two equal, adjacent repetitive units 10 the Center between two sub-pixels 16 is away from equal.In this way, not only make arrangement of subpixels more uniform, and it is the shape of transparent area 18, big It is small also in the same size, to improve the uniformity of light transmission, is conducive to improve sensor devices accuracy of identification, improves imaging efficiency.

The first sub-pixel and third sub-pixel is deposited in the dot structure that Fig. 4 shows corresponding diagram 3 in one embodiment of the application Mask plate structural schematic diagram；The second sub-pixel is deposited in the dot structure that Fig. 5 shows corresponding diagram 3 in one embodiment of the application Mask plate structural schematic diagram.

Refering to attached drawing, mask plate 20 in one embodiment of the application, which is FMM mask plate 20 comprising is hidden Area 22 and multiple mask opens 24 are kept off, the blocked area 22 between two adjacent mask opens 24 is referred to as connecting bridge (bridge).Mask open 24 corresponds to the sub-pixel of same color (such as green), due to first the 12, second son of sub-pixel Pixel 14, third sub-pixel 16 are the different polygon of number of edges, and therefore, the shape of the mask open 24 is polygon.

Specific in embodiment as shown in Figure 3, the first sub-pixel 12 is eight-sided formation, the second sub-pixel 14 is four Side shape structure, third sub-pixel 16 are hexagonal structure, and the first sub-pixel 12 and third sub-pixel 16 can pass through the side of deviation Formula shares a mask plate 20 to realize, then for the mask plate 20 of the first sub-pixel 12 and two third sub-pixels 16 to be deposited Mask open 24 be octagon, for the mask open 24 of the second sub-pixel 14 be deposited as quadrangle (see Fig. 5).In this way, logical It crosses and reasonable pel spacing is set, the second sub-pixel 14 of vapor deposition may be implemented and third sub-pixel 16 shares a mask plate 20, Saved cost and avoid occurring due to using a variety of mask plate 20 as far as possible FMM stick up by, be broken the problems such as to vapor deposition product The influence of matter.

In some embodiments, multiple 24 repeated arrangements of mask open, each mask open 24 is zhou duicheng tuxing, and It is in first angle α, 30 ° of 60 ° of < α < between the symmetry axis and row or column direction of each mask open 24.In this way, mask open 24 The axis of symmetry and exposure mask throw the net direction at an angle, this design is conducive to the dispersion of tension during throwing the net, improves and steams The stability of mask plate 20 is plated, vapor deposition accuracy is improved.As a preferred embodiment, first angle α is 45 °, Ke Yijin Improve vapor deposition accuracy to one step.

Based on above-mentioned dot structure, one embodiment of the application also provides a kind of display panel, which includes base Plate, sensor devices and such as above-mentioned dot structure as described in the examples, which is set to the phase of substrate with sensor devices To two sides.The display panel light transmittance with higher, thus can be in order to the sensor devices receiving optical signal, thus The fingerprint recognition accuracy of the display panel can be improved.

In the present embodiment, sensor devices may include multiple Fingerprint Identification Units, specially photoinduction Fingerprint Identification Unit, multiple Fingerprint Identification Unit can be arranged in the side of the substrate in array, and on the surface of display panel, the finger of reflection is touched through finger Line identification light is back to Fingerprint Identification Unit, issues signal to control unit after the Fingerprint Identification Unit induction.Control unit can The operations such as corresponding movement, such as unlock, payment are generated to control dot structure.

Fig. 6 is the schematic cross-section of the display panel in one embodiment of the application.

In some embodiments of the present application, dot structure further includes luminescent layer 28 and electrode layer (figure is not marked), electrode layer packet Illusory euphotic electrode 234 is included, illusory euphotic electrode 234 is set to transparent area 18.Specifically, luminescent layer 28 may include organic hair Layer is penetrated, can also include hole injection layer, hole transmission layer, electron transfer layer and electron injecting layer etc..In some embodiments, electricity Pole layer may include multiple anodes 232, and each anode 232 can correspond to a sub-pixel setting, pass through anode 232 and setting Cathode layer in 28 surface of luminescent layer can control the luminescent layer 28 and shine.In transparent area 18, illusory euphotic electrode 234 can be with It is arranged with 232 same layer of anode.Illusory euphotic electrode 234 can not have conducting function, for example, in one embodiment, it is illusory Metal material in anode 232 can be changed to the preferable material of light transmittance by euphotic electrode 234 may make up illusory light transmission electricity Pole 234, to improve the light transmittance of transparent area 18.In this way, pixel defining layer 25 is thinned in the thickness of transparent area 18, compared to other The light transmittance of film layer, illusory euphotic electrode 234 is higher, can be further improved the light transmittance of transparent area 18.Further, pixel Definition layer 25 can also open up via hole in transparent area 18, at least partly to manifest euphotic electrode, further increase light transmission The light transmittance in area 18.

In some embodiments, electrode layer is equipped at least one pierced pattern for corresponding to pixel defining layer.In this way, further The light penetration of display panel is improved, and then guarantees to shield lower fingerprint recognition effect and precision.It is readily appreciated that, luminescent layer 28 is Translucency is bad, and pixel defining layer can use the preferable material of light transmittance, then pierced pattern respective pixel definition layer, is conducive to Improve the light transmittance of display panel.

In some embodiments, cathode layer at least corresponds to transparent area 18 and offers pierced pattern.In this way, can further mention The light transmittance of high display panel.

In some embodiments of the application, display panel further includes driving layer group, and driving layer group, which has, is correspondingly arranged in light transmission The light transmission via hole (figure do not mark) in area 18 is filled with transparent material 40 in light transmission via hole.Specifically, driving layer group is set to substrate 11 On, driving layer group includes multiple thin film transistor (TFT)s, and loophole is between adjacent thin film transistor (TFT).It is filled in light transmission via hole saturating On the one hand on the other hand bright material 40 can increase anti-by fingerprint to avoid the strength reduction because of film layer caused by aperture The fingerprint recognition light penetrated is reflected back the path of sensor devices, to increase the light transmittance of dot structure.

Specific in embodiment, driving layer group may include semiconductor layer, gate electrode, source electrode 13 and drain electrode 15.Half Conductor layer can be formed by amorphous silicon layer, metal oxide or polysilicon layer, or can be formed by organic semiconducting materials.One In a little embodiments, semiconductor layer includes channel region and source region and drain region doped with dopant.It can use gate insulating layer 17 Semiconductor layer is covered, gate electrode can be set on gate insulating layer 17.Generally, gate insulating layer 17 can cover flexible liner The whole surface at bottom 11.In some embodiments, gate insulating layer 17 can be formed by patterning.In view of viscous with adjacent layer The formability and profile pattern of destination layer are closed, stack, gate insulating layer 17 can be by silica, silicon nitride or other insulation Organic or inorganic material is formed.Gate electrode can be by by silica, silicon nitride and/or other suitable insulation organic or inorganic materials The interlayer insulating film 19 that material is formed covers.A part that gate insulating layer 17 and interlayer insulating film 19 can be removed, in removal Form contact hole afterwards with the presumptive area of exposed semiconductor layer.Source electrode 13 and drain electrode 15 can partly be led via contact holes contact Body layer.Since driving layer group has complicated layer structure, top surface may be it is uneven, display panel further includes Planarization layer 21, to form sufficiently flat top surface.After forming planarization layer 21, it can be formed in planarization layer 21 Through-hole, with the source electrode 13 or drain electrode 15 of exposure driving layer group, electrode layer is formed on planarization layer 21, and anode 232 passes through The source electrode 13 or drain electrode 15 of through-hole above-mentioned and driving layer group connect.

As an implementation, above-mentioned each layer is all made of the transparent material 40 that light transmittance is greater than 90%, so that The light transmittance of entire transparent area 18 can be 70% or more.Further, each layer is all made of light transmittance greater than 95% Material further increases the light transmittance of transparent area 18, even more so that the light transmittance of entire transparent area 18 is 80% or more.Light transmission The conductive material layer in area 18 can be set to ITO, IZO, Ag+ITO or Ag+IZO etc., the preferred SiO of insulation material layer₂, SiN_x And Al₂O₃High transparency material 40 is then used Deng, pixel defining layer 25.In this way, the light that can further improve transparent area 18 penetrates Property.

It is appreciated that thin film transistor (TFT) is known by those skilled in the art, therefore this will not be repeated here its specific structure and original Reason.

Based on same inventive concept, the application also provides a kind of display device, which includes above-described embodiment In display panel.

Specifically, which can be applied to mobile phone terminal, bionic, electronic skin, wearable device, vehicle-mounted The fields such as equipment, internet of things equipment and artificial intelligence equipment.For example, above-mentioned display device can be mobile phone, plate, palm electricity The digital equipments such as brain, ipod, smartwatch.

Using " comprising " described herein, " having " and "comprising", unless having used specific restriction Term, such as " only ", " by ... form " etc., it otherwise can also add another component.Unless refer on the contrary, otherwise singular shape The term of formula may include plural form, and can not be interpreted as its quantity is one.

It will be appreciated that though term " first ", " second " etc. can be used herein to describe various elements, but these yuan Part should not be limited by these terms.These terms are only used to distinguish an element and another element.For example, not taking off In the case where scope of the present application, first element can be referred to as second element, and similarly, and second element can be claimed For first element.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

The embodiments described above only express several embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to protection of the invention Range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (10)

1. a kind of dot structure, which is characterized in that the repetitive unit including multiple repeated arrangements, each repetitive unit include difference The first sub-pixel, the second sub-pixel and the third sub-pixel of color；

The fictitious line of homochromy and adjacent two sub-pixels is spaced each other into transparent area in adjacent repetitive unit.

2. dot structure according to claim 1, which is characterized in that first sub-pixel, the second sub-pixel and third Sub-pixel is polygonized structure, and in first sub-pixel, the second sub-pixel and third sub-pixel at least two number of edges It is different.

3. dot structure according to claim 1, which is characterized in that different colours and adjacent two in each repetitive unit A sub-pixel has a common fictitious line, and different colours and adjacent two sub-pixels have one common in adjacent repetitive unit Fictitious line；

Preferably, the respective fictitious line of pixel back gauge of each sub-pixel is equidistant.

4. dot structure according to claim 3, which is characterized in that each repetitive unit include first sub-pixel, One the second sub-pixel and two third sub-pixels；

In the repetitive unit, first pixel arrangement is in a row or column, and second pixel arrangement is adjacent Another row or column, two third pixel arrangements same row adjacent in first sub-pixel or second sub-pixel Or row；

Preferably, in each repetitive unit, the line of centres of the first sub-pixel and second sub-pixel is by mutual common The midpoint of fictitious line, be expert at or column direction on, two third sub-pixels positioned at same column or row are with adjacent different colours Sub-pixel is symmetrical arranged on the basis of the center line that row or column direction extends.

5. dot structure according to any one of claims 1 to 4, which is characterized in that first sub-pixel is octagon Structure, second sub-pixel are quadrilateral structure, the third sub-pixel is hexagonal structure.

6. a kind of mask plate, which is characterized in that described to cover for making dot structure as claimed in any one of claims 1 to 5 Diaphragm plate includes multiple mask opens；

Preferably, the shape of the mask open is polygon；

It is highly preferred that each repetitive unit includes first sub-pixel, second sub-pixel and two third sub-pixels, institute State that the first sub-pixel is eight-sided formation, second sub-pixel is quadrilateral structure, the third sub-pixel is hexagon knot Structure；

The shape of the mask open is quadrangle or octagon.

7. mask plate according to claim 6, which is characterized in that the multiple mask open repeated arrangement, it is each described Mask open is zhou duicheng tuxing, and is in first angle α, 30 ° of < α between the symmetry axis of each mask open and row or column direction 60 ° of <；

Preferably, first angle α is 45 °.

8. a kind of display panel, which is characterized in that including substrate, sensor devices and picture as claimed in any one of claims 1 to 5 Plain structure, the dot structure and the sensor devices are set to the opposite sides of the substrate.

9. display panel according to claim 8, which is characterized in that the display panel includes:

Luminescent layer；And

Electrode layer is stacked with the luminescent layer, and the electrode layer includes illusory euphotic electrode, and the illusory euphotic electrode is set It is placed in the transparent area.

10. display panel according to claim 8, which is characterized in that the display panel includes driving layer group, the drive Dynamic layer group has the light transmission via hole for being correspondingly arranged in the transparent area, is filled with transparent material in the light transmission via hole.